DEVELOPMENT OF SMART DISINFECTION MACHINE USING IOT TECHNOLOGY

IF 0.6 Q4 ENGINEERING, MECHANICAL MM Science Journal Pub Date : 2023-10-04 DOI:10.17973/mmsj.2023_10_2023057

TRUONG DUC PHUC, TRAN VAN THANH, LE TIEN CUONG, NGUYEN HOANG VU, DANG TRAN BACH

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引用次数: 1

Abstract

In this study, the authors developed a smart, high power of disinfection machine using IoT technology. This disinfection machine generates super fine fog from H2O2 solution by utilizing pressure-swirl airblast atomizer. This machine sprays the H2O2 fog into the air inside the operating room in hospitals to disinfect and make the environment clean. The operation of the disinfection machine is totally remote controlled via mobile application using Bluetooh Low Energy (BLE) communication technology. All operating parameters are remotely, real time monitored and controlled. In addition, the machine operation history of are fully collected and stored both on a memory card in control circuit board and on cloud database. Furthermore, the heat generation from the integrated circuits (ICs) or chip and electronic components on the control printed circuit board (PCB) is also studied in order to prevent the overheating of the components which cause malfunction or instability of the machine. The results show that the temperature of all the electronic components on the control PCB during working is within the temperature allowance, and the disinfection machine works well.

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利用物联网技术开发智能消毒机

在这项研究中，作者利用物联网技术开发了一种智能、高功率的消毒机。本消毒机利用压力旋流式气流雾化器，将H2O2溶液产生超细雾。本机将H2O2雾喷洒到医院手术室内的空气中进行消毒，使环境清洁。消毒机的操作完全通过移动应用程序远程控制，采用蓝牙低功耗(BLE)通信技术。所有操作参数均可远程实时监测和控制。此外，机器的运行历史被完整地收集并存储在控制电路板的存储卡和云数据库中。此外，还研究了控制印刷电路板(PCB)上的集成电路(ic)或芯片和电子元件产生的热量，以防止元件过热导致机器故障或不稳定。结果表明，控制PCB板上各电子元件工作时的温度均在温度允许范围内，消毒机工作良好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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